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Online since: December 2010
Authors: Zhi Xiong Huang, Jian Li
Design of Thermal Transferring of Plane Mould
for Low Pressure Sheet Molding Compound
Jian Li 1, a,Zhixiong Huang2, b
1 Department of Materials Engineering, Hubei Automotive Industries Institute, Shiyan, 442002;
2 School of Materials Science and Engineering,Wuhan University of Technology,Wuhan 430070
aemail:lijian_0711@126.com; bemail: letgo508@163.com; cemail: kai__zhang@126.com
Key words: Low pressure sheet molding compound,Mathematical simulation,Plane mould,Heat transferring,Optimization design
Abstract: Mathematical simulation of mold flow of glass fibers and design of heat transferring of plane mould for low pressure sheet molding compound were analyzed and optimized by MATLAB software in this article.
Polymer Materials Science & Engineering Vol. 22 (2006), p. 185~188, in Chinese [2]Katayarna T.
,Shinohara M. et al.Journal of Materials Processing Technology Vol. 155-156 (2004), p. 1577~1582 [3]Soo-Young Kim, Yong-Taek Im.
Journal of Materials Processing Technology Vol. 67 (1997), p. 207~213 [4]Ki-Taek Kim, Jin-Ho Jeong, Yong-Taek Im.
Journal of Materials Processing Technology Vol. 67 (1997), p. 105~111 [5]TANG Zhi-yu: Guide for Plastic Mould Designers (National Defense Industry Press,Beijing 1999) , in Chinese [6]HUANG Hua-jiang: Computer Simulation for Practical Chemical- Application of MATLAB in chemical engineering (Chemical Industry Press,Beijing 2004) , in Chinese [7]Mehta G., Mohanty A.
Polymer Materials Science & Engineering Vol. 22 (2006), p. 185~188, in Chinese [2]Katayarna T.
,Shinohara M. et al.Journal of Materials Processing Technology Vol. 155-156 (2004), p. 1577~1582 [3]Soo-Young Kim, Yong-Taek Im.
Journal of Materials Processing Technology Vol. 67 (1997), p. 207~213 [4]Ki-Taek Kim, Jin-Ho Jeong, Yong-Taek Im.
Journal of Materials Processing Technology Vol. 67 (1997), p. 105~111 [5]TANG Zhi-yu: Guide for Plastic Mould Designers (National Defense Industry Press,Beijing 1999) , in Chinese [6]HUANG Hua-jiang: Computer Simulation for Practical Chemical- Application of MATLAB in chemical engineering (Chemical Industry Press,Beijing 2004) , in Chinese [7]Mehta G., Mohanty A.
Online since: July 2012
Authors: Mohd Sharif Nurulakmal, Shazlin Shaik Osman
Sharifb
School of Materials and Mineral Resources Engineering, University Science Malaysia, Pulau Pinang, Malaysia.
The use of new materials will necessitate high standards for reliable, high-density assembly.
Lee, JOM Journal of the Minerals, Metals and Materials Society 59 (7) (2007) 26–31
Cho, Journal of the Minerals, Metals and Materials Society 56 (6) (2004) 34–38
Wong, Journal of Materials Science: Materials in Electronics 18 (1–3) (2007) 77–91
The use of new materials will necessitate high standards for reliable, high-density assembly.
Lee, JOM Journal of the Minerals, Metals and Materials Society 59 (7) (2007) 26–31
Cho, Journal of the Minerals, Metals and Materials Society 56 (6) (2004) 34–38
Wong, Journal of Materials Science: Materials in Electronics 18 (1–3) (2007) 77–91
Online since: April 2011
Authors: E.S. Kayali, H. Çimenoğlu, Gülçin Albayrak, F. Akmaz, A. Parlar, L. Sepet, H. Sengel, N. Altinsoy, A.B. Tugrul, Nilgun Baydogan
Aberlei: Solar Energy Materials & Solar Cells Vol. 73 (2002), p. 1
Urueta: Solar Energy Materials and Solar Cells Vol. 52 (1998), p. 345
Bai: Materials Letter Vol. 61 (2007), p 363
Xia: Journal of Crystal Growth Vol. 275 (2005), p. 943
Raoufi: Applied Surface Science Vol. 255 (2009), p. 5812. 27] N.T.
Urueta: Solar Energy Materials and Solar Cells Vol. 52 (1998), p. 345
Bai: Materials Letter Vol. 61 (2007), p 363
Xia: Journal of Crystal Growth Vol. 275 (2005), p. 943
Raoufi: Applied Surface Science Vol. 255 (2009), p. 5812. 27] N.T.
Online since: May 2020
Authors: Li Hua Chai, Ya Peng Cui, Zhi Lei Xiang, Xiao Zhao Ma, Ying Ying Liu, Zi Yong Chen
Journal of Materials Engineering, 2016, 44(8): 1-10
Materials Science & Engineering A, 2008, 485(1): 130-139
Journal of Aeronautical Materials, 2003, 23(2): 14-17
Materials Science and Engineering: A, 2018:S0921509318301540
Materials Science & Engineering A, 2005, 393(1): 204-212
Materials Science & Engineering A, 2008, 485(1): 130-139
Journal of Aeronautical Materials, 2003, 23(2): 14-17
Materials Science and Engineering: A, 2018:S0921509318301540
Materials Science & Engineering A, 2005, 393(1): 204-212
Online since: March 2017
Authors: Siti Norasmah Surip, Noor Najmi Bonnia, Wan Nor Raihan Wan Jaafar
Journal of materials science. 2005; 40: 4421-4429
Journal of applied polymer science. 2002; 84: 2222-2234
Materials and design. 2012; 40: 378-385
Materials letters. 2007: 61: 2023-2025
Journal of hazard materials. 2007: 144: 730-735.
Journal of applied polymer science. 2002; 84: 2222-2234
Materials and design. 2012; 40: 378-385
Materials letters. 2007: 61: 2023-2025
Journal of hazard materials. 2007: 144: 730-735.
Online since: August 2013
Authors: Lorelei Gherman, Oana Dodun, Carmen Ema Panaite
Electrical discharge machining is the most extensively non-conventional machining process used to obtain complicated shapes with high accuracy in a wide variety of materials.
The effects of the small plasma channels of the discharges are heating, melting and vaporization of electrodes materials.
The tool electrode materials used in this study were pure copper (wire of 120 μm and 190 μm diameter) and graphite (350 μm diameter).
Heamawatanachai , Orbital electrode actuation to improve efficiency of drilling micro-holes by micro-EDM, Journal of materials processing technology 2 0 9 ( 2009) 1826–1834
Zuyuan, Prediction of aspect ratio of a micro hole drilled by EDM, Journal of Mechanical Science and Technology 27 (1) (2013) 185-190
The effects of the small plasma channels of the discharges are heating, melting and vaporization of electrodes materials.
The tool electrode materials used in this study were pure copper (wire of 120 μm and 190 μm diameter) and graphite (350 μm diameter).
Heamawatanachai , Orbital electrode actuation to improve efficiency of drilling micro-holes by micro-EDM, Journal of materials processing technology 2 0 9 ( 2009) 1826–1834
Zuyuan, Prediction of aspect ratio of a micro hole drilled by EDM, Journal of Mechanical Science and Technology 27 (1) (2013) 185-190
Online since: September 2011
Authors: Zhan Xiong Li, Hao Hua Ye, Shao Qiang Zhou, Jian He Cai, Guo Qiang Chen
It has been extensively used in textile, coating, architecture, optical fiber and national defense materials.
[2] Ping Zhong, Dajian Qiu, Dingyi Zhao, et a1: Journal of Materials Protection,Vol.37(2004),pp.11-15(in Chinese)
[20] J.W.Stansbury ,J.M.Antonucci: dental materials, Vol.15(1999),pp.166-173
Journal of south china university of technology(natural science edition),Vol.33(2005),pp.52-55(in Chinese)
[25] Cong Li, Jiacai Li, Guangxuan Liu: Polymer materials science and engineering, Vol.26(2010),pp.1-3(in Chinese)
[2] Ping Zhong, Dajian Qiu, Dingyi Zhao, et a1: Journal of Materials Protection,Vol.37(2004),pp.11-15(in Chinese)
[20] J.W.Stansbury ,J.M.Antonucci: dental materials, Vol.15(1999),pp.166-173
Journal of south china university of technology(natural science edition),Vol.33(2005),pp.52-55(in Chinese)
[25] Cong Li, Jiacai Li, Guangxuan Liu: Polymer materials science and engineering, Vol.26(2010),pp.1-3(in Chinese)
Online since: November 2025
Authors: Nnabuike Ezukwoke, Edmund Nnabueze Ajimah, Edward Chukwudi Anoliefo, Jonas Nnaemeka Onah, Mkpamdi Eke
The CZTS uses materials that are abundant and cheaper to produce than CIGS, CIS, CdTe, and silicon solar cells.
Mar, “Materials for Photovoltaics: State of Art and Recent Developments,” International Journal of Molecular Sciences Review, Int.
Hoque, “Investigation of Different Materials as Buffer Layer in CZTS Solar Cells Using SCAPS,” Journal of Clean Energy Technologies, doi:10.18178/jocet.2018.6.4.477, vol. 6, No. 4, July 2018
Mahalakshmi et al, “Deposition of quaternary Cu2ZnSnS4 (CZTS) thin film by chemical bath deposition method for solar cell application,” Journal of Optoelectronics and Advanced Materials Vol. 22, No. 11-12, November –December 2020, p. 619 – 622
Mukhopadhyay et al, “Deposition of quaternary Cu2ZnSnS4 (CZTS) thin film by chemical bath deposition method for solar cell application,” Journal of Optoelectronics and Advanced Materials vol. 22, no. 11-12, November – December 2020, p. 619 – 622
Mar, “Materials for Photovoltaics: State of Art and Recent Developments,” International Journal of Molecular Sciences Review, Int.
Hoque, “Investigation of Different Materials as Buffer Layer in CZTS Solar Cells Using SCAPS,” Journal of Clean Energy Technologies, doi:10.18178/jocet.2018.6.4.477, vol. 6, No. 4, July 2018
Mahalakshmi et al, “Deposition of quaternary Cu2ZnSnS4 (CZTS) thin film by chemical bath deposition method for solar cell application,” Journal of Optoelectronics and Advanced Materials Vol. 22, No. 11-12, November –December 2020, p. 619 – 622
Mukhopadhyay et al, “Deposition of quaternary Cu2ZnSnS4 (CZTS) thin film by chemical bath deposition method for solar cell application,” Journal of Optoelectronics and Advanced Materials vol. 22, no. 11-12, November – December 2020, p. 619 – 622
Online since: August 2016
Authors: Koichi Nakamura, Mohamed Kamal Gouda, Mohamed Abdel Hady Gepreel
Saito, Phase-stability dependence of plastic deformation behavior in Ti-Nb-Ta-Zr-O alloys, Journal of Materials Engineering and Performance 14 (2005) 747-754
Matviychuk, Deformation behavior of beta-titanium alloys, Materials Science and Engineering: A 354 (2003) 121-132
Schwarzer, Evolution of cold rolling texture in the binary alloys: Ti–0.4 Mn and Ti–1.8 Mn, Materials Science and Engineering: A 307 (2001) 151-157
Semiatin, Thermomechanical processing of beta titanium alloys—an overview, Materials Science and Engineering: A 243 (1998) 46-65
Yashiro, Design and mechanical properties of new β type titanium alloys for implant materials, Materials Science and Engineering: A 243 (1998) 244-249.
Matviychuk, Deformation behavior of beta-titanium alloys, Materials Science and Engineering: A 354 (2003) 121-132
Schwarzer, Evolution of cold rolling texture in the binary alloys: Ti–0.4 Mn and Ti–1.8 Mn, Materials Science and Engineering: A 307 (2001) 151-157
Semiatin, Thermomechanical processing of beta titanium alloys—an overview, Materials Science and Engineering: A 243 (1998) 46-65
Yashiro, Design and mechanical properties of new β type titanium alloys for implant materials, Materials Science and Engineering: A 243 (1998) 244-249.
Online since: December 2012
Authors: Bao Kui Gao, Xuan Zhuo Han, Hong Qiang Zhang
In order to obtain well bore stresses in hostile conditions, a new model is established with cement sheath and formation are treated as different materials.
In this paper, cement sheath and formation are treated as different materials, a new model is established to calculate stresses in casing, cement sheath and formation, and hostile conditions as HP/HT and non-uniform earth stress are included.
Data are obtained under assumption that three materials are linear elastic and isotropic.
Journal of Petroleum Technology.
Journal of Petroleum Technology.
In this paper, cement sheath and formation are treated as different materials, a new model is established to calculate stresses in casing, cement sheath and formation, and hostile conditions as HP/HT and non-uniform earth stress are included.
Data are obtained under assumption that three materials are linear elastic and isotropic.
Journal of Petroleum Technology.
Journal of Petroleum Technology.